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1.
黄连木对干旱胁迫的生理响应   总被引:9,自引:0,他引:9  
研究了自然干旱条件下黄连木(Pistacia chinensis Bunge)的生理变化。结果表明,随土壤含水量的减少,叶绿素b含量、光合速率、叶片相对含水量与叶水势均下降;叶绿素a和可溶性糖含量、叶绿素a和b的比值及总叶绿素含量呈现上升的趋势;超氧化物歧化酶活性先升后降;丙二醛含量干旱胁迫前期升高,后期变化不明显;净光合速率、气孔导度和蒸腾速率随土壤含水量的减少逐步降低。气孔和可溶性糖含量都是影响黄连木光合速率的关键因子,干旱胁迫前12d光合速率主要受气孔限制,之后为非气孔限制。干旱胁迫前期渗透调节物质以可溶性糖为主,干旱胁迫较重时脯氨酸含量急剧升高,与可溶性糖同时起渗透调节作用。  相似文献   

2.
以黄土高原4个乡土树种的幼苗为试验材料,采用盆栽方式模拟土壤干旱环境,研究土壤干旱对不同树种水分代谢与渗透调节物质的影响。结果表明,大叶细裂槭、虎榛子叶水势、叶片含水量下降迅速,叶片离体保水能力降幅明显;白刺花、辽东栎则表现为叶水势、叶片含水量缓慢下降,组织相对含水量在中度胁迫下略有上升。白刺花在不同水分处理条件下离体叶片保水力明显高于其它树种。1个树种可溶性糖含量随土壤干旱程度加剧明显增加,可溶性蛋白质含量在树种之间变化较为复杂,无明显规律性。K^ 离子含量和游离脯氨酸含量在中度水分胁迫下均有不同程度升高。白刺花在土壤干旱进程中,可溶性蛋白质含量、K^ 离子含量和游离脯氨酸含量均明显高于其它树种。综合水分代谢和渗透调节物质来看,水分胁迫条件下,白刺花以保持高水势、减少组织水分散失和增加渗透调节物质来提高细胞原生质浓度,增强其抗旱性。  相似文献   

3.
采用人工气候室控制环境条件,研究了高温(30℃和40℃)对印楝(Azadirachta indica A.Juss.)、木豆[Cajanus cajan(Linn.)Huth]、赤桉(Eucalyptus camaldulensis Dehn.)、蓝桉(E.globulus Labillardiere)、柠檬桉(E.citriodoraHook.)、大叶相思(Acacia auriculiformis A.Cunn.)和麻风树(Jatropha curcas Linn.)7个干热河谷植被恢复树种幼苗叶片光合参数的影响,以及低湿条件对麻风树幼苗叶片光合参数的影响,并对高温及低湿条件下各树种叶片光合参数与叶片含水量的关系进行了探讨。结果表明:在高温条件下,供试树种叶片的净光合速率(Pn)和Fv/Fm值均随叶片含水量的提高逐渐增加,但在40℃条件下各树种的Pn以及刚nn值均明显降低,表明叶片含水量高有利于各树种叶片Pn和n/Fm的提高,而40℃高温则对其Pn和Fv/Frn有明显抑制作用。在非干旱条件下,高温对各树种幼苗的Pn、气孔导度(Gs)、胞间c0:浓度(ci)和蒸腾速率(Tr)均有不同程度影响。在40℃条件下,供试树种中印楝和赤桉幼苗的Pn降幅最小;大叶相思、蓝桉和木豆幼苗的Gs明显增加;各树种幼苗的ci均明显提高;除印楝外,其他6个树种幼苗的Tr明显加剧且叶片水分利用效率降低。在叶片含水量较高的状况下,供试7个树种中印楝和赤桉幼苗的FV/Fm值受高温的影响较小。在空气相对湿度20%的条件下,麻风树幼苗的Pn、Cs、ci及Tr均明显降低,且均随叶片含水量的提高而增加,表明叶片含水量下降是麻风树幼苗光合作用减弱的重要影响因素。研究结果表明:干热河谷地区的高温引起的植物光合限制以非气孔因素为主导;在供试的7个树种中,印楝和赤桉对干热河谷高温干旱生境的适应或忍耐能力较强。  相似文献   

4.
以豆科(Fabaceae)11个复叶树种和6个单叶树种为材料,测定他们的气孔导度、叶片水力导度、水势、相对含水量等指标,分析叶型对枝叶光合水分关系的影响。结果显示,复叶树种正午叶轴水势(-0.91 MPa)与单叶树种正午枝条水势(-0.88 MPa)间无显著差异,但正午枝条水势(-0.60 MPa)显著高于单叶树种。复叶树种正午气孔导度降低的百分比(55.3%)显著高于单叶树种(34.1%)。叶片、叶轴和枝条正午水势两两之间均显著正相关,但与正午气孔导度之间均不存在相关性。本研究中,17个树种的正午叶片水力导度与气孔导度间显著正相关(r=0.79,P<0.001),但他们与气孔导度降低百分比间呈负相关(r=-0.81,P<0.001),说明叶片导水率对日间气孔导度的维持具有重要作用。研究结果表明单叶和复叶树种在光合水分关系上存在明显差异,说明他们对环境条件具有不同的适应策略。  相似文献   

5.
用KCl、KNO3、可溶性糖(蔗糖,葡萄糖、果糖)和脯氨酸溶液浸泡小麦幼苗叶片30min后以20%聚乙二醇(PEG-6000)渗透胁迫处理24h结果表明,昌乐5号和济南13小麦幼苗叶片的相对含水量(RWC),水势、光合速率和气孔导度都明显增高,荧光参数Fv/Fm值则基本不变。  相似文献   

6.
用KCl、KNO_3、可溶性糖(蔗糖、葡萄糖、果糖)和脯氨酸溶液浸泡小麦幼苗叶片30min后以20%聚乙二醇(PEC-6000)渗透胁迫处理24h的结果表明,昌乐5号和济南13小麦幼苗叶片的相对含水量(RWC)、水势、光合速率和气孔导度都明显增高,荧光参数Fv/Fm值则基本不变。  相似文献   

7.
陕北沙地小叶杨“小老树”的水力适应性   总被引:4,自引:2,他引:2  
陈佳村  李秧秧  左力翔 《生态学报》2014,34(15):4193-4200
以黄土高原"小老树"发生面积最大的树种-小叶杨为例,研究了不同水分生境下(水分相对好的沟道和干旱的梁坡片沙地,分别标记为生境A和生境B)小叶杨的生长、光合、水力学特性等,试图探讨小叶杨"小老树"对干旱生境的适应机制。结果表明:生境B小叶杨树高、地径、1 m树高处直径明显小于生境A,同时其主茎顶端枯枝长度大于生境A;生境B小叶杨叶净光合速率和气孔导度明显低于生境A。两种生境下小叶杨黎明前和正午叶水势无显著差异,生境B小叶杨正午时小枝枝干的比导水率明显低于生境A,但两种生境的比叶导水率则无显著差异,生境B小叶杨的Huber值明显大于生境A。生境B小叶杨枝干的P50(导水率损失50%时所对应的木质部水势)比生境A低约0.76 MPa左右,其气孔关闭的水势比生境A晚0.2 MPa左右,生境B小叶杨水分传输安全距离明显大于生境A。表明干旱生境下小叶杨高Huber值和低气孔导度有助于其叶水分关系维持相对稳定,低光合速率和维持大的水分传输安全距离所需的木质部碳投资增加是小叶杨形成"小老树"的重要原因。  相似文献   

8.
冬小麦叶片气孔导度模型水分响应函数的参数化   总被引:2,自引:0,他引:2       下载免费PDF全文
植物气孔导度模型的水分响应函数用来模拟水分胁迫对气孔导度的影响过程, 是模拟缺水环境下植物与大气间水、碳交换过程的关键算法。水分响应函数包括空气湿度响应函数和土壤湿度(或植物水势)响应函数, 该研究基于田间实验观测, 分析了冬小麦(Triticum aestivum)叶片气孔导度对不同空气饱和差和不同土壤体积含水量或叶水势的响应规律。一个土壤水分梯度的田间处理在中国科学院禹城综合试验站实施, 不同水分胁迫下的冬小麦叶片气体交换过程和气孔导度以及其他的温湿度数据被观测, 同时观测了土壤含水量和叶水势。实验数据表明, 冬小麦叶片气孔导度对空气饱和差的响应呈现双曲线规律, 变化趋势显示大约1 kPa空气饱和差是一个有用的阈值, 在小于1 kPa时, 冬小麦气孔导度对空气饱和差变化反应敏感, 而大于1 kPa后则反应缓慢; 分析土壤体积含水量与中午叶片气孔导度的关系发现, 中午叶片气孔导度随土壤含水量增加大致呈现线性增加趋势, 但在平均土壤体积含水量大于大约25%以后, 气孔导度不再明显增加, 而是维持在较高导度值上下波动; 冬小麦中午叶片水势与相应的气孔导度之间, 随着叶水势的增加, 气孔导度呈现增加趋势。根据冬小麦气孔导度对空气湿度、土壤湿度和叶水势的响应规律, 研究分别采用双曲线和幂指数形式拟合了水汽响应函数, 用三段线性方程拟合了土壤湿度响应函数和植物水势响应函数, 得到的参数可以为模型模拟冬小麦的各类水、热、碳交换过程采用。  相似文献   

9.
水分胁迫下不同抗旱类型品种对氮素营养反应的比较研究   总被引:7,自引:0,他引:7  
实验结果表明,小麦受到水分胁迫时,游离脯氨酸大量积累,胁迫缓慢加重时,渗透调节能力增强,适当的氮素营养,可增强渗透调节作用,有助于干旱下维持膨压,提高NR酶活性和净光合速率。水地型品种对水分和氮素营养都较敏感,叶片水势、饱和渗透势、NR酶活性、游离脯氨酸含量的变化都较旱地型品种大,旱地型品种在受旱时水分状况较稳定,生理代谢变化幅度较小,但两类旱地品种对氮素营养的反应不同。旱肥型较旱薄型敏感。水分胁迫下,水地型品种渗透势下降较多,渗透调节幅度较大,是对逆境更敏感或实际受到的胁迫较重的表现。  相似文献   

10.
植被恢复对干热河谷退化土壤改良的影响   总被引:5,自引:0,他引:5  
唐国勇  高成杰  李昆 《生态学报》2015,35(15):5157-5167
土地退化和土壤恶化是我国干热河谷主要环境问题。树种筛选及树种与土壤关键限制因子间的相互作用是生态恢复的基础和前提。对比研究了干热河谷地区植被恢复22年间不同时期(1991、1997、2005和2013年)5种人工林(新银合欢Leucaena leucocephala,苏门答腊金合欢Albizia kalkora,大叶相思Acacia auriculiformis,印楝Azadirachta indica和赤桉Eucalyptus camaldulensis)和1种自然恢复样地中土壤主要物理、化学和微生物性质。结果表明植被恢复处理和取样时间对土壤性质有显著影响。在22a的植被恢复期内,土壤物理性质提高幅度为3.0%—20.2%,远不及土壤微生物和化学性质。通过自然恢复机制改良的退化土壤,其改良率(63.6%)高于印楝(54.9%)、苏门答腊金合欢(54.3%)和赤桉(53.2%)人工林,但改良率不及新银合欢(68.2%)和大叶相思(67.3%)人工林。研究得出造林树种类型决定干热河谷土壤改良进程。与自然恢复相比,人工植被恢复(如造林)并不一定能加速退化土壤改良。新银合欢和大叶相思适合作为改良干热河谷退化土壤的先锋树种,而生态系统自然恢复也可作为改良干热河谷退化土壤的一种适宜方式。  相似文献   

11.
鹤山人工马占相思林水分生态研究   总被引:33,自引:1,他引:32       下载免费PDF全文
 通过对马占相思叶片的蒸腾速率、气孔导度及其相应环境因子的测定,探讨鹤山丘陵人工马占相思林的水分生理生态特征。结果表明:蒸腾速率和气孔导度具有明显的日变化,两者的变化趋势相似,在夏季的日变化曲线呈双峰型,冬季呈单峰型;夏季的蒸腾速率最高,在冬季最低,仅占夏季的27.6%;马占相思林的蒸腾耗水量在旱季和雨季有明显的差异,旱季的蒸腾耗水量占雨季的25.5%,年蒸腾量为1625.1mm,占同期降水量的78.3%;马占相思林的蒸腾量接近热带雨林。  相似文献   

12.
This study investigated the role of quercitol in osmotic adjustment in field-grown Eucalyptus astringens Maiden subject to seasonal drought stress over the course of 1 year. The trees grew in a native woodland and a farm plantation in the semi-arid wheatbelt region of south Western Australia. Plantation trees allocated relatively more biomass to leaves than woodland trees, but they suffered greater drought stress over summer, as indicated by lower water potentials, CO2 assimilation rates and stomatal conductances. In contrast, woodland trees had relatively fewer leaves and suffered less drought stress. Plantation trees under drought stress engaged in osmotic adjustment, but woodland trees did not. Quercitol made a significant contribution to osmotic adjustment in drought-stressed trees (25% of total solutes), and substantially more quercitol was measured in the leaves of plantation trees (5% dry matter) than in the leaves of woodland trees (2% dry matter). We found no evidence that quercitol was used as a carbon storage compound while starch reserves were depleted under drought stress. Differences in stomatal conductance, biomass allocation and quercitol production clearly indicate that E. astringens is both morphologically and physiologically 'plastic' in response to growth environment, and that osmotic adjustment is only one part of a complex strategy employed by this species to tolerate drought.  相似文献   

13.
We report on community structural, ecophysiological, phenological, and morphological measurements made on woody plant species in the high elevation pre-altiplano zone on the western slopes of the Andean Cordillera of northern Chile. Notwithstanding extreme conditions of low rainfall, high atmospheric vapour demand and diurnal temperature fluctuation, a diversity of habitats (associated with drainage and slope aspect), appreciable local plant species richness (28 woody perennial plant species in a small area), and an array of adaptive morphological ecophysiological and phenological traits are present among woody species in these shrublands. Family diversity was low with four families accounted for 82% of the species. A range of gas exchange and watering use efficiency strategies was present ranging from highly efficient CAM species with a carbon isotope discrimination (Δ) of 3.7–7.5‰ through C3 species with varying stomatal and gas exchange characteristics with a Δ of 14.4 to 19.8‰. Drought-deciduous small-leaved amphistomatic species from arid slopes generally had high stomatal conductance and high carbon assimilation rates during the rainy season. These drought deciduous species were largely leafless and, with one exception had low water potentials, during the dry season. Wash and less xeric site species commonly had broader evergreen to semi-evergreen leaves, higher dry season water potentials, and relatively consistent and moderate rates of gas exchange throughout the year. For all species, intrinsic water use efficiency (as estimated from the inverse of c i :c a ratio) correlated positively with mean leaf width (broader leaves had a lower higher intrinsic WUE) and dry season water potential. The charismatic high altitude tree, Polylepis rugulosa (Roaceae), had a population structure that suggests highly episodic establishment of seedlings, likely in sequences of wet years. Little of the area of these significant shrublands is currently protected. It would be desirable to add areas of pre-altiplano shrublands to adjacent national parks to ensure the persistence of these important communities. This revised version was published online in June 2006 with corrections to the Cover Date.  相似文献   

14.
 在对半干旱区3种植物进行生理生态特性测定的基础上,应用两种气孔导度模型进行参数的非线性拟合,BBL模型平均可以解释77.6%的结果,Gao模型平均可以解释59.3%的结果。但Gao模型作为一个机理性的模型,其参数具有明确的物理意义。模型的行为和敏感性分析结果说明,用BBL计算的气孔导度一般大于Gao模型。BBL模型对于干旱胁迫下的土壤水分亏缺没有响应, 因而不适合用作干旱半干旱区的植物生理生态学分析和生态系统模拟。而 Gao模型可以描述在各种水分条件下植物气孔导度的响应。Gao模型的结果说明,与油松 ( Pinus tabulaeformis) 和中间锦鸡儿 (Caragana intermedia) 比较,小叶杨 (Populus simonii ) 具有最小的抗旱和耐旱能力,油松具有最好的叶片水平的耐旱和抗旱特性,但其气孔导度对土壤水分的不敏感意味着在干旱条件下维持光合作用的同时,也可能会导致过多的水分损失。中间锦鸡儿具有很强的耐旱性,且其气孔导度对土壤水分的变化敏感,二者相结合,中间锦鸡儿可以在土壤水分条件较好的情况下,维持较大的气孔导度以满足光合作用的需要,但在土壤水分胁迫严重的时候能迅速降低气孔导度以保持土壤水分。  相似文献   

15.
羊草叶片气体交换参数对温度和土壤水分的响应   总被引:19,自引:4,他引:15  
 采用生长箱控制的方法研究了羊草(Leymus chinensis)幼苗叶片光合参数对5个温度和5个水分梯度的响应和适应。结果表明:轻度、中度土壤干旱并没有限制羊草叶片的生长,对气体交换参数亦无显著影响,反映了羊草幼苗对土壤水分胁迫的较高耐性。叶片生物量以26 ℃时最大,其它依次为23 ℃、20 ℃、29 ℃和32 ℃。温度升高使气孔导度和蒸腾速率增加, 却使光合速率和水分利用效率降低。水分和温度对叶片生物量、光合速率、气孔导度和蒸腾速率存在显著的交互作用,表明高温加强了干旱对叶片生长和气体交换的影响, 降低了羊草对土壤干旱的适应能力。高温和干旱的交互作用将显著减少我国半干旱地区草原的羊草生产力。  相似文献   

16.
Responses of CO2 assimilation and stomatal conductance to decreasing leaf water potential, and to environmental factors, were analysed in a mixed natural stand of sessile oak (Quercus petraea ssp. medwediewii) and beech (Fagus svlvatica L.) in Greece during the exceptionally dry summer of 1998. Seasonal courses of leaf water potential were similar for both species, whereas mean net photosynthesis and stomatal conductance were always higher in sessile oak than in beech. The relationship between net photosynthesis and stomatal conductance was strong for both species. Sessile oak had high rates of photosynthesis even under very low leaf water potentials and high air temperatures, whereas the photosynthetic rate of beech decreased at low water potentials. Diurnal patterns were similar in both species but sessile oak had higher rates of CO2 assimilation than beech. Our results indicate that sessile oak is more tolerant of drought than beech, due, in part, to its maintenance of photosynthesis at low water potential.  相似文献   

17.
由于生长速率高, 耐旱性强, 银合欢(Leucaena leucocephala)被广泛应用于世界各地退化热带亚热带森林的修复, 但它也是一种全球性的外来入侵植物。已经有研究发现高生长速率可以帮助银合欢成功入侵亚热带森林, 但是目前还不清楚高生长速率和强耐旱性是否能帮助银合欢成功入侵热带森林。该研究以位于中国三亚抱坡岭被银合欢入侵的热带雨林先锋群落为研究对象, 通过t检验比较干季和湿季银合欢和8个热带雨林先锋群落的本地优势种与快速生长(光合速率、气孔导度和蒸腾速率)和耐旱性(叶片膨压丧失点)紧密相关的功能性状的差异, 并利用主成分分析(PCA)研究这些功能性状是否能很好地区分银合欢和其他8个本地优势种。结果表明: 银合欢在干湿季均能快速地生长(比本地物种显著更高的光合速率、气孔导度和蒸腾速率), 且在干季拥有更强的耐旱性(比本地物种显著更低的叶片膨压丧失点)。PCA结果表明这些功能性状能够显著区分银合欢和其他8个本地优势种。因此干湿季的稳定的快速生长和干季的强耐旱性使银合欢成功入侵热带雨林先锋群落。未来可利用这些功能性状筛选合适的本地物种对入侵其他热带森林的银合欢进行有效的生物防治。  相似文献   

18.
华南典型人工林凋落物的持水特性   总被引:62,自引:0,他引:62       下载免费PDF全文
 对于华南地区的杉木(Cunninghamia lanceolata)林、马尾松(Pinus massoniana)林、湿地松(Pinus elliottii)林、马占相思(Acacia mangium)林和尾叶桉(Eucalyptus urophylla)林的凋落物的储量、持水量、持水率和吸水速率进行了研究。结果表明,杉木林的凋落物的干重(6.5×103 kg·hm-2)最大,其次是马尾松林和马占相思林(5.5×103 kg·hm-2),而湿地松林(4.1×103 kg·hm-2)和尾叶桉林较小(4.0×103 kg·hm-2)。凋落物持水量呈现杉木林>马占相思林>尾叶桉林>马尾松林>湿地松林。各林分凋落物的最大持水量为杉木林17.9×103 kg·hm-2,马占相思林14.8×103 kg·hm-2,尾叶桉林14.0×103 kg·hm-2,马尾松林10.6×103 kg·hm-2,湿地松林9.8×103 kg·hm-2。尾叶桉林、杉木林、马占相思林、湿地松林和马尾松林的凋落物最大持水率分别为351%、274%、269%、235%和191%。凋落物持水量和凋落物持水率随着浸泡时间的增加按照对数方程增加。5种林分中尾叶桉林的凋落物吸水速率在各浸泡时间后居首位,杉木林和马占相思林中等,湿地松林较小,而马尾松林最小,各林分的凋落物的吸水速率随浸泡时间的增长按方程Y=a+b·t-1下降。  相似文献   

19.
In woody plants, photosynthetic capacity is closely linked to rates at which the plant hydraulic system can supply water to the leaf surface. Drought‐induced embolism can cause sharp declines in xylem hydraulic conductivity that coincide with stomatal closure and reduced photosynthesis. Recovery of photosynthetic capacity after drought is dependent on restored xylem function, although few data exist to elucidate this coordination. We examined the dynamics of leaf gas exchange and xylem function in Eucalyptus pauciflora seedlings exposed to a cycle of severe water stress and recovery after re‐watering. Stomatal closure and leaf turgor loss occurred at water potentials that delayed the extensive spread of embolism through the stem xylem. Stem hydraulic conductance recovered to control levels within 6 h after re‐watering despite a severe drought treatment, suggesting an active mechanism embolism repair. However, stomatal conductance did not recover after 10 d of re‐watering, effecting tighter control of transpiration post drought. The dynamics of recovery suggest that a combination of hydraulic and non‐hydraulic factors influenced stomatal behaviour post drought.  相似文献   

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